Add to ORKGThe influence of temper condition on the tensile and compressive stress-strain behavior for six boron-aluminum laminates was investigated. In addition to monotonic tension and compression tests, tension-tension, compression-compression, and tension--compression tests were conducted to study the effects of cyclic loading. Tensile strength results are a function of the laminate configuration; unidirectional laminates were affected considerably more than other laminates with some strength values increasing and others decreasing
Thermal effects on fracture strength and impact energy were studied in 50 volume percent unidirectio...
Evidence of the presence of lamination residual stresses in angleplied laminates were transply crack...
A nonlinear laminate analysis is described for predicting the mechanical behavior (stress-strain rel...
The tensile stress-strain behavior of five types of boron/aluminum laminates was investigated. Longi...
Experimental results of the mechanical behavior of two metal matrix composite systems at room temper...
Six Borsic/aluminum laminate orientations exposed to a braze temperature cycle were tested in tensio...
The nonlinear response of boron/aluminum angleplied laminates subjected to cyclic loads was investig...
A computerized analysis of the nonlinear behavior of fibrous composite laminates including axial loa...
Three test methods were employed to characterize the response of unidirectional Boron/Aluminum metal...
The high temperature properties of boron/aluminum composites, fabricated by an air diffusion bonding...
An experiment was conducted to verify the results of mathematical models which predict the stresses ...
A three dimensional elastoplastic finite element micromechanical model was developed to study the st...
The variation of ultimate tensile strength with thermal treatment of B-Al composite materials and of...
An experimental investigation was conducted to determine the magnitude of lamination residual stress...
Reinforcement of ductile aluminum and epoxies with brittle high modulus filament
Thermal effects on fracture strength and impact energy were studied in 50 volume percent unidirectio...
Evidence of the presence of lamination residual stresses in angleplied laminates were transply crack...
A nonlinear laminate analysis is described for predicting the mechanical behavior (stress-strain rel...
The tensile stress-strain behavior of five types of boron/aluminum laminates was investigated. Longi...
Experimental results of the mechanical behavior of two metal matrix composite systems at room temper...
Six Borsic/aluminum laminate orientations exposed to a braze temperature cycle were tested in tensio...
The nonlinear response of boron/aluminum angleplied laminates subjected to cyclic loads was investig...
A computerized analysis of the nonlinear behavior of fibrous composite laminates including axial loa...
Three test methods were employed to characterize the response of unidirectional Boron/Aluminum metal...
The high temperature properties of boron/aluminum composites, fabricated by an air diffusion bonding...
An experiment was conducted to verify the results of mathematical models which predict the stresses ...
A three dimensional elastoplastic finite element micromechanical model was developed to study the st...
The variation of ultimate tensile strength with thermal treatment of B-Al composite materials and of...
An experimental investigation was conducted to determine the magnitude of lamination residual stress...
Reinforcement of ductile aluminum and epoxies with brittle high modulus filament
Thermal effects on fracture strength and impact energy were studied in 50 volume percent unidirectio...
Evidence of the presence of lamination residual stresses in angleplied laminates were transply crack...
A nonlinear laminate analysis is described for predicting the mechanical behavior (stress-strain rel...